The primary commitments of this paper are outlined as takes after: • We propose a convention named “reap then-transmit” for the WPCN, where the H-AP first communicates remote vitality to all clients in the DL, and afterward, the clients transmit their free data to the H-AP in the UL utilizing their independently gathered vitality by time-division-multiple-access (TDMA). • With the proposed convention, we initially boost the aggregate throughput of the WPCN by together improving the time allotted to the DL WET and the UL WITs given an aggregate time imperative, in view of the clients’ DL and UL channels and in addition their normal collected vitality sum. It is demonstrated that the total throughput expansion issue is arched, and in this way we infer shut shape articulations for the ideal time portions by applying curved enhancement procedures 12. • Our answer uncovers a fascinating new “doubly close far” marvel in the WPCN, when a far client from the HAP gets less measure of remote vitality than a closer client in the DL, yet needs to transmit with more power in the UL for accomplishing a similar data rate due to the doubly remove subordinate flag constriction in both the DL WET and UL WIT. Subsequently, the total throughput augmentation arrangement is appeared to allow generously more opportunity to the close clients than the far clients, along these lines bringing about unjustifiable achievable rates among diverse clients. • To overcome the doubly close far issue, we besides propose another execution metric alluded to as regular throughput with the extra limitation that all clients ought to be apportioned with an equivalent rate in their UL WITs paying little heed to their separations to the H-AP. We propose an effective calculation to augment the regular throughput of the WPCN by re-advancing the time dispensed for the DL WET and UL WITs. By contrasting the most extreme total versus regular throughput, we describe the principal throughput-reasonableness exchange offs in a WPCN.The rest of this paper is sorted out as takes after. Area II displays the WPCN show and the proposed reap them- transmit convention. Area III investigations the whole throughput amplification issue and describes the doubly close far marvel. Segment IV plans the normal throughput augmentation issue and introduces an effective calculation to explain it. Segment V presents reenactment comes about on the aggregate throughput versus normal throughput correlation. At long last, Section VI closes the paper.